The Golden Number
Pythagorean Rites and Rhythms in the Development of Western Civilization
By (Author) Matila C. Ghyka
Introduction by Paul Valéry
Availability:
In Stock
- Pages: 448
- Book Size: 6 x 9
- ISBN-13: 9781594771002
- Imprint: Inner Traditions
- On Sale Date: October 30, 2016
- Format: Hardcover Book
- Illustrations: 66 full-page b&w illustrations
Commonly symbolized by the Fibonacci sequence, the Golden Number or Phi is the geometric ratio 1.618. Matila Ghyka’s classic reveals how understanding of the divine proportion is seen as a portal to discovering the hidden harmonies of the cosmos.
The first English translation of Ghyka’s masterwork on sacred geometry
• Reveals how the Golden Number Phi underlies the spiritual nature of beauty and the hidden harmonies that connect the whole of creation
• Explains how the spiritual mysteries of the Golden Number were passed down in an unbroken line of transmission from the Pythagorean brotherhoods through the medieval builders’ guilds to the secret societies of 18th-century Europe
The Golden Number, or Phi (Φ), is a geometric ratio found throughout nature, often underlying the dimensions of objects considered especially beautiful. Simplified as 1.618 and symbolized by the Fibonacci sequence, the Golden Number represents the unique relationship within an object where the ratio of a larger part to a smaller part is the same as the ratio of the whole to the larger part. It appears in the proportions of the human face and body as well as in the proportions of animals, plants, and celestial bodies.
Called the divine proportion by the monk Fra Luca Pacioli, whose book on the subject was illustrated by Leonardo da Vinci, Phi’s use in art and architecture goes back at least to the mystical mathematics of Pythagoras and his followers in the sixth century BCE. The perfect synthesis of spiritual and material, it can be found in the measurements of the sacred temples of Egypt, Ancient Greece, and Medieval and Renaissance Europe. The asymptotic series of integers that define Phi represent the macrocosm and microcosm as portrayed in Plato’s concept of the world soul.
Presenting Matila Ghyka’s classic treatise on the Golden Number for the first time in English, this book reveals the many ways this ratio can be found not only in the organic forms of nature--such as in the spirals of shells or the number of petals on a flower--but also in the most beautiful and highest creations of humanity. One of the most important concepts of sacred geometry, its mysteries were passed down in an unbroken line of transmission from the Pythagorean brotherhoods through the medieval builders’ guilds to the secret societies of 18th-century Europe. Ghyka shows how the secrets of this divine proportion were not sought merely for their value in architecture, painting, and music, but also as a portal to a deeper understanding of the spiritual nature of beauty and the hidden harmonies that connect the whole of creation.
• Reveals how the Golden Number Phi underlies the spiritual nature of beauty and the hidden harmonies that connect the whole of creation
• Explains how the spiritual mysteries of the Golden Number were passed down in an unbroken line of transmission from the Pythagorean brotherhoods through the medieval builders’ guilds to the secret societies of 18th-century Europe
The Golden Number, or Phi (Φ), is a geometric ratio found throughout nature, often underlying the dimensions of objects considered especially beautiful. Simplified as 1.618 and symbolized by the Fibonacci sequence, the Golden Number represents the unique relationship within an object where the ratio of a larger part to a smaller part is the same as the ratio of the whole to the larger part. It appears in the proportions of the human face and body as well as in the proportions of animals, plants, and celestial bodies.
Called the divine proportion by the monk Fra Luca Pacioli, whose book on the subject was illustrated by Leonardo da Vinci, Phi’s use in art and architecture goes back at least to the mystical mathematics of Pythagoras and his followers in the sixth century BCE. The perfect synthesis of spiritual and material, it can be found in the measurements of the sacred temples of Egypt, Ancient Greece, and Medieval and Renaissance Europe. The asymptotic series of integers that define Phi represent the macrocosm and microcosm as portrayed in Plato’s concept of the world soul.
Presenting Matila Ghyka’s classic treatise on the Golden Number for the first time in English, this book reveals the many ways this ratio can be found not only in the organic forms of nature--such as in the spirals of shells or the number of petals on a flower--but also in the most beautiful and highest creations of humanity. One of the most important concepts of sacred geometry, its mysteries were passed down in an unbroken line of transmission from the Pythagorean brotherhoods through the medieval builders’ guilds to the secret societies of 18th-century Europe. Ghyka shows how the secrets of this divine proportion were not sought merely for their value in architecture, painting, and music, but also as a portal to a deeper understanding of the spiritual nature of beauty and the hidden harmonies that connect the whole of creation.
8
The Lamp under the Bushel
In the presence of the unsettling avatar of the sign of harmony that we have seen radiating above the Gnostic Hermes, another star, not far from here, appeared in the firmament of symbols.
Magi are also guided by this star, leaning over, like official monitors responsible for an observation or a transmission of powers, the cradle of a new god, who will say he is love. He needed barely two centuries to be installed as master. Gnosticism becomes Christian.
But Christianity did not become Gnostic.
The Church refused to accept magic--or at least the “desire for magic.” It did not accept the predominant role awarded to “knowledge,” and the desire for knowledge, and even less the tendency to reserve this knowledge for a circle of the elite.
It was in vain that Marcion, Valentinus, Basilides, and Bardesane deployed the blandishments of their Word to save the scintillating mixture of Neoplatonic metaphysics and Syrian tenderness--the words of power of Isis no longer worked. Bishops and magicians of Gnosticism were excommunicated, doomed to destruction. But later Gnosticism led a hardy life, and with its sisters, the Kabbalah and Hermeticism, was content to wend its way through the esoteric shadows, passing down from century to century its ritual and ideological heritage, of which certain
Pythagorean rites and symbols formed no small part.
We saw earlier how Gothic architecture was “expert” from the perspective of the strict geometry of its plans. We saw how nothing was left to chance in the overall plans or in the design of the details, and that especially in the rose-windows of the Gothic cathedrals, we found an entire graphic encyclopedia of regular polygons inscribed in the circle as well as the polar segmentation of this same circle (Mössel’s Kreisteilung).
I noted in Esthétique des proportions how often the pentagon and pentagram recur in the designs and the motifs of Gothic rose windows. The inscribing of these figures in the circle (probably one of the geometric “secrets” of the school revealed to the profane by the Pythagorean Hippocrates of Chios) was handed down from antiquity according to the method of Ptolemy, based on the division of a straight line into mean and extreme ratio, following the golden number (divine proportion or “golden section”) that indeed governs the play of proportions in every regular figure with pentagonal or decagonal symmetry.
The old Pythagorean symbol for harmony radiates especially at Notre Dame, where we find it inscribed inside a pentagonal stainedglass rose, as well as at the heart of the north rose of Saint Ouen in Rouen, and in the magnificent north rose of Amiens cathedral: the rose window itself is pentedecagonal, with fifteen points.
Pentagonal rose windows can also be found in the Saint-Chapelle, in Strasbourg, and on the entire perimeter of Westminster Abbey.
Transmission of the Pythagorean Diagrams through Architecture
The exclusively Pythagorean-Platonic aspect of Vitruvian mathematics is visible in the fact that Vitruvius, the son of an architect, spoke in the name of a solidly established professional tradition and that in the art of building, the tradition was handed down as family or guild secrets.
This tradition would include the graphic procedures for establishing proportion and conforming to the desiderata of the “symmetry” (which Plato had already called “dynamic symmetry”), of which the most fruitful in eurhythmic combinations were based on the pentagon and decagon being inscribed inside the circle.
A parallel path of transmission of professional techniques also in the form of hereditary secrets was formed by the guilds or “colleges” of masons and stone carvers.
Tradition credits Numa with the founding of eight craftsmen guilds. What is certain is not only that these guilds (collegia opificum) were in existence in the third century BCE, but that they multiplied and degenerated by adding to their purely corporate character electoral agencies and secret political clubs.
We know by the few inscriptions found on this subject, that there existed among crafts guilds, funeral guilds, and religious fraternities (sodalitates) not only these bonds of affiliation, but also a close similarity from the point of view of their initiatory ritual character: the kinds of ceremonies (feasts, sacrifices), names of officials, elections (and probably admissions) of honorary “patrons.” We also know that the ritual was excessively complicated and was able to be passed down for six centuries without any modification.
The mason guilds spread throughout the Eastern Empire during the entire lifespan of Byzantine civilization, and after its fall, these guilds, instead of being destroyed, strengthened their autonomy and kept both traditions and organizations fully intact.
The initiatory symbolism extended to the tools of the trade, and for architects and masons this symbolism acquired a very special importance due to the geometrical “secrets” handed down by the masters. These instruments--compass, square, plumb line--are depicted on the sarcophagi of Roman-era architects and arranged exactly as they would be later on the tombstones of the fifteenth-, sixteenth-, and seventeenth-century master builders and on the facade of Saint Stephen’s in Vienna. These signs are sometimes obvious monograms and sometimes geometric symbols that can be found on the stones of some ancient monuments and on the majority of Roman and Gothic buildings.
For medieval buildings, where these masons’ marks or “sigils” are crafted with a precise and mysterious geometry (whose mathematical key the Austrian architect Rziha appears to have discovered), we know that each journeyman at his reception into this second grade of the hierarchy received a “mark” that belonged to him for life. This was his signature on the important pieces for which he was responsible, his password in his travels and contacts with members of his lodge or affiliated lodges.
The diagrams represented by these grids contain what the stone carvers called the “fundamental grid” or the base (Steinmetzgrund), which the majority of geometrical designs used for establishing the horizontal outlines of the capitals, steeples, bell towers, and for the drawing of Gothic rose windows.
The Lamp under the Bushel
In the presence of the unsettling avatar of the sign of harmony that we have seen radiating above the Gnostic Hermes, another star, not far from here, appeared in the firmament of symbols.
Magi are also guided by this star, leaning over, like official monitors responsible for an observation or a transmission of powers, the cradle of a new god, who will say he is love. He needed barely two centuries to be installed as master. Gnosticism becomes Christian.
But Christianity did not become Gnostic.
The Church refused to accept magic--or at least the “desire for magic.” It did not accept the predominant role awarded to “knowledge,” and the desire for knowledge, and even less the tendency to reserve this knowledge for a circle of the elite.
It was in vain that Marcion, Valentinus, Basilides, and Bardesane deployed the blandishments of their Word to save the scintillating mixture of Neoplatonic metaphysics and Syrian tenderness--the words of power of Isis no longer worked. Bishops and magicians of Gnosticism were excommunicated, doomed to destruction. But later Gnosticism led a hardy life, and with its sisters, the Kabbalah and Hermeticism, was content to wend its way through the esoteric shadows, passing down from century to century its ritual and ideological heritage, of which certain
Pythagorean rites and symbols formed no small part.
We saw earlier how Gothic architecture was “expert” from the perspective of the strict geometry of its plans. We saw how nothing was left to chance in the overall plans or in the design of the details, and that especially in the rose-windows of the Gothic cathedrals, we found an entire graphic encyclopedia of regular polygons inscribed in the circle as well as the polar segmentation of this same circle (Mössel’s Kreisteilung).
I noted in Esthétique des proportions how often the pentagon and pentagram recur in the designs and the motifs of Gothic rose windows. The inscribing of these figures in the circle (probably one of the geometric “secrets” of the school revealed to the profane by the Pythagorean Hippocrates of Chios) was handed down from antiquity according to the method of Ptolemy, based on the division of a straight line into mean and extreme ratio, following the golden number (divine proportion or “golden section”) that indeed governs the play of proportions in every regular figure with pentagonal or decagonal symmetry.
The old Pythagorean symbol for harmony radiates especially at Notre Dame, where we find it inscribed inside a pentagonal stainedglass rose, as well as at the heart of the north rose of Saint Ouen in Rouen, and in the magnificent north rose of Amiens cathedral: the rose window itself is pentedecagonal, with fifteen points.
Pentagonal rose windows can also be found in the Saint-Chapelle, in Strasbourg, and on the entire perimeter of Westminster Abbey.
Transmission of the Pythagorean Diagrams through Architecture
The exclusively Pythagorean-Platonic aspect of Vitruvian mathematics is visible in the fact that Vitruvius, the son of an architect, spoke in the name of a solidly established professional tradition and that in the art of building, the tradition was handed down as family or guild secrets.
This tradition would include the graphic procedures for establishing proportion and conforming to the desiderata of the “symmetry” (which Plato had already called “dynamic symmetry”), of which the most fruitful in eurhythmic combinations were based on the pentagon and decagon being inscribed inside the circle.
A parallel path of transmission of professional techniques also in the form of hereditary secrets was formed by the guilds or “colleges” of masons and stone carvers.
Tradition credits Numa with the founding of eight craftsmen guilds. What is certain is not only that these guilds (collegia opificum) were in existence in the third century BCE, but that they multiplied and degenerated by adding to their purely corporate character electoral agencies and secret political clubs.
We know by the few inscriptions found on this subject, that there existed among crafts guilds, funeral guilds, and religious fraternities (sodalitates) not only these bonds of affiliation, but also a close similarity from the point of view of their initiatory ritual character: the kinds of ceremonies (feasts, sacrifices), names of officials, elections (and probably admissions) of honorary “patrons.” We also know that the ritual was excessively complicated and was able to be passed down for six centuries without any modification.
The mason guilds spread throughout the Eastern Empire during the entire lifespan of Byzantine civilization, and after its fall, these guilds, instead of being destroyed, strengthened their autonomy and kept both traditions and organizations fully intact.
The initiatory symbolism extended to the tools of the trade, and for architects and masons this symbolism acquired a very special importance due to the geometrical “secrets” handed down by the masters. These instruments--compass, square, plumb line--are depicted on the sarcophagi of Roman-era architects and arranged exactly as they would be later on the tombstones of the fifteenth-, sixteenth-, and seventeenth-century master builders and on the facade of Saint Stephen’s in Vienna. These signs are sometimes obvious monograms and sometimes geometric symbols that can be found on the stones of some ancient monuments and on the majority of Roman and Gothic buildings.
For medieval buildings, where these masons’ marks or “sigils” are crafted with a precise and mysterious geometry (whose mathematical key the Austrian architect Rziha appears to have discovered), we know that each journeyman at his reception into this second grade of the hierarchy received a “mark” that belonged to him for life. This was his signature on the important pieces for which he was responsible, his password in his travels and contacts with members of his lodge or affiliated lodges.
The diagrams represented by these grids contain what the stone carvers called the “fundamental grid” or the base (Steinmetzgrund), which the majority of geometrical designs used for establishing the horizontal outlines of the capitals, steeples, bell towers, and for the drawing of Gothic rose windows.
Publisher's Preface
Foreword by Paul Valéry
Introduction
Part 1 RHYTHMS
Chapter 1 From Number to Harmony
Chapter 2 The Divine Proportion
Chapter 3 The Geometric Canons of Mediterranean Architecture
Chapter 4 The Orchestration of Volumes and Architectural Harmony
Chapter 5 From Rhythm to Incantation
Chapter 6 From Incantation to Love
Part 2 Rites
Chapter 7 Pythagoras
Chapter 8 The Lamp under the Bushel
Chapter 9 Esotericism and Politics:From Plato’s Cave to the Masonic Lodges
Chapter 10 Modern Science and the Return to Pythagoras
Chapter 11 Life Force, Rhythm, and Duration
Chapter 12 The Phoenix of Metapontum and the Duel of the Magicians
Conclusion
Index
ILLUSTRATIONS
1. Polygonal figurate numbers and gnomons
2. Golden section, pentagon, pentagram, phi rectangle
3. The five regular polyhedrons (Platonic solids)
4. The five Platonic solids inscribed inside one another
5. Star dodecahedron with twenty vertices
6. Star dodecahedron with twelve vertices
7. Icosahedron and dodecahedron by Leonardo da Vinci for Pacioli’s Divina Proportione
8. Semi-regular polyhedrons by Leonardo da Vinci
9. Star dodecahedron and stella octangula by Leonardo da Vinci
10. Pentagonal symmetries: Φ rectangle and spiral of harmonious growth
11. Three growth patterns governed by the golden section
12. Hexagonal symmetries (crystals)
13. Pentamerous flowers
14. Pentamerous calyx (Symphytum officinale)
15. Cardium pseudolima and Solarium perspectivum
16. Nautilus pompilius and Triton tritonis (X-rays)
17. Man-Microcosm according to Agrippa von Nettesheim and the directing icosahedron in the choreography manual by R. von Laban
18. Miss Helen Wills (Mrs. F. Moody)
19. Harmonic analysis of the previous photograph
20. Explanation of the diagram in plate
21. Isabella d’Este, by Leonardo da Vinci
22. Male nude, harmonic analysis (square and golden section)
23. The “Microcosm”
24. Hellenistic bas-relief
25. Harmonic rectangles (Φ and 5) based on Hambidge
26. Harmonic decomposition of drawings according to Hambidge’s method
27. Egyptian harmonic drawings
28. Harmonic decomposition of the Φ rectangle
29. Systems of proportion obtained by the polar segmentation of the circle
30. Plans of an Egyptian temple and the rock temple of Mira
31. Typical Greek temple designs
32. Mössel’s typical diagrams for an early Christian basilica and Gothic church
33. Typical Gothic designs according to Mössel
34. Establishing the transverse proportion of Gothic naves
35. Canon of Pythagoras
36. Relationship between the Pythagorean scale and the columns of Greek temples
37. Milan cathedral; plan reproduced by Caesariano in his commentary on Virtruvius
38. Milan cathedral (elevation and vertical section by Caesar Caesariano, 1521)
39. Explanatory diagram for plate
40. Small temple of Minerva in Rome, harmonic analysis
41. Pantheon of Rome, harmonic analysis
42. San Stefano Rotunda in Rome, harmonic analysis
43. Explanatory diagram for the San Stefano plan
44. The Great Pyramid, meridian section
45. Miloutine Borissavlievitch’s optico-physiological perspectivism
46. Projected analogies by Miloutine Borissavlievitch’s perspectivism
47. Hieronymus Bosch, The Garden of Earthly Delights
48. Maat, goddess of truth
49. Rose window of Amiens, magical pentacles, cinquefoil from the Saint-Chapelle
50. Masons’ marks
51. Gothic masons’ marks
52. Gothic symphony (Burgos cathedral)
53. Baroque catharsis (Melk Abbey)
54. Baroque catharsis (Melk Abbey)
55. Baroque catharsis, monstrance
56. The mystic handshake
57. Square and plumb line on a funerary mosaic in Pompeii
58. Christ the “Initiate,” Saint Stephen’s Cathedral, Vienna
59. Le Corbusier and Pierre Jeanneret, regulating drawings
60. Le Corbusier and Pierre Jeanneret, regulating drawing
61. Harmonic variations on the dodecahedron
62. Harmonic variations on the icosahedron
63. Lilies
64. Ancient nude: Bronze in the style of Polykleitos
65. Another view of plate
66. The new Nordic naturism
Foreword by Paul Valéry
Introduction
Part 1 RHYTHMS
Chapter 1 From Number to Harmony
Chapter 2 The Divine Proportion
Chapter 3 The Geometric Canons of Mediterranean Architecture
Chapter 4 The Orchestration of Volumes and Architectural Harmony
Chapter 5 From Rhythm to Incantation
Chapter 6 From Incantation to Love
Part 2 Rites
Chapter 7 Pythagoras
Chapter 8 The Lamp under the Bushel
Chapter 9 Esotericism and Politics:From Plato’s Cave to the Masonic Lodges
Chapter 10 Modern Science and the Return to Pythagoras
Chapter 11 Life Force, Rhythm, and Duration
Chapter 12 The Phoenix of Metapontum and the Duel of the Magicians
Conclusion
Index
ILLUSTRATIONS
1. Polygonal figurate numbers and gnomons
2. Golden section, pentagon, pentagram, phi rectangle
3. The five regular polyhedrons (Platonic solids)
4. The five Platonic solids inscribed inside one another
5. Star dodecahedron with twenty vertices
6. Star dodecahedron with twelve vertices
7. Icosahedron and dodecahedron by Leonardo da Vinci for Pacioli’s Divina Proportione
8. Semi-regular polyhedrons by Leonardo da Vinci
9. Star dodecahedron and stella octangula by Leonardo da Vinci
10. Pentagonal symmetries: Φ rectangle and spiral of harmonious growth
11. Three growth patterns governed by the golden section
12. Hexagonal symmetries (crystals)
13. Pentamerous flowers
14. Pentamerous calyx (Symphytum officinale)
15. Cardium pseudolima and Solarium perspectivum
16. Nautilus pompilius and Triton tritonis (X-rays)
17. Man-Microcosm according to Agrippa von Nettesheim and the directing icosahedron in the choreography manual by R. von Laban
18. Miss Helen Wills (Mrs. F. Moody)
19. Harmonic analysis of the previous photograph
20. Explanation of the diagram in plate
21. Isabella d’Este, by Leonardo da Vinci
22. Male nude, harmonic analysis (square and golden section)
23. The “Microcosm”
24. Hellenistic bas-relief
25. Harmonic rectangles (Φ and 5) based on Hambidge
26. Harmonic decomposition of drawings according to Hambidge’s method
27. Egyptian harmonic drawings
28. Harmonic decomposition of the Φ rectangle
29. Systems of proportion obtained by the polar segmentation of the circle
30. Plans of an Egyptian temple and the rock temple of Mira
31. Typical Greek temple designs
32. Mössel’s typical diagrams for an early Christian basilica and Gothic church
33. Typical Gothic designs according to Mössel
34. Establishing the transverse proportion of Gothic naves
35. Canon of Pythagoras
36. Relationship between the Pythagorean scale and the columns of Greek temples
37. Milan cathedral; plan reproduced by Caesariano in his commentary on Virtruvius
38. Milan cathedral (elevation and vertical section by Caesar Caesariano, 1521)
39. Explanatory diagram for plate
40. Small temple of Minerva in Rome, harmonic analysis
41. Pantheon of Rome, harmonic analysis
42. San Stefano Rotunda in Rome, harmonic analysis
43. Explanatory diagram for the San Stefano plan
44. The Great Pyramid, meridian section
45. Miloutine Borissavlievitch’s optico-physiological perspectivism
46. Projected analogies by Miloutine Borissavlievitch’s perspectivism
47. Hieronymus Bosch, The Garden of Earthly Delights
48. Maat, goddess of truth
49. Rose window of Amiens, magical pentacles, cinquefoil from the Saint-Chapelle
50. Masons’ marks
51. Gothic masons’ marks
52. Gothic symphony (Burgos cathedral)
53. Baroque catharsis (Melk Abbey)
54. Baroque catharsis (Melk Abbey)
55. Baroque catharsis, monstrance
56. The mystic handshake
57. Square and plumb line on a funerary mosaic in Pompeii
58. Christ the “Initiate,” Saint Stephen’s Cathedral, Vienna
59. Le Corbusier and Pierre Jeanneret, regulating drawings
60. Le Corbusier and Pierre Jeanneret, regulating drawing
61. Harmonic variations on the dodecahedron
62. Harmonic variations on the icosahedron
63. Lilies
64. Ancient nude: Bronze in the style of Polykleitos
65. Another view of plate
66. The new Nordic naturism
Prince Matila Costiesco Ghyka (1881-1965) was a Romanian mathematician, historian, philosopher, and diplomat, who served as the Plenipotentiary Minister in the United Kingdom during the late 1930s. He was also a visiting professor of aesthetics at the University of Southern California and at the Mary Washington College in Virginia. His previous books in English include The Geometry of Art and Life and an autobiography, The World Mine Oyster. Though his prolific literary output includes fiction, poetry, and philosophy, the overarching concern of his work was a synthesis of higher mathematics and the arts.
“Finally ... a complete translation of Matila Ghyka’s masterwork. This foundational book is essential reading for anyone interested in the golden section, harmony, proportion, and beauty in nature, art, and architecture.”
David Fideler, author of Restoring the Soul of the World
“Matila Ghyka’s The Golden Number is the most comprehensive and convincing demonstration that the golden ratio is indeed, as Pythagoras had posed it, the root number of the universe, expressed both in the living plants and animals and in matter forms at all scales--from galaxies, to crystals, to quantum waves--thus ever-present in mathematics, cosmology, architecture, music, and art at large. Jon Graham’s excellent translation couldn’t be more of a treasure trove at this time.”
Chris H. Hardy, Ph.D., author of The Sacred Network
David Fideler, author of Restoring the Soul of the World
“Matila Ghyka’s The Golden Number is the most comprehensive and convincing demonstration that the golden ratio is indeed, as Pythagoras had posed it, the root number of the universe, expressed both in the living plants and animals and in matter forms at all scales--from galaxies, to crystals, to quantum waves--thus ever-present in mathematics, cosmology, architecture, music, and art at large. Jon Graham’s excellent translation couldn’t be more of a treasure trove at this time.”
Chris H. Hardy, Ph.D., author of The Sacred Network
SACRED GEOMETRY
“Finally ... a complete translation of Matila Ghyka’s masterwork. This foundational book is essential reading for anyone interested in the golden section, harmony, proportion, and beauty in nature, art, and architecture.”
--David Fideler, author of Restoring the Soul of the World
“Matila Ghyka’s The Golden Number is the most comprehensive and convincing demonstration that the golden ratio is indeed, as Pythagoras had posed it, the root number of the universe, expressed both in the living plants and animals and in matter forms at all scales--from galaxies, to crystals, to quantum waves--thus ever-present in mathematics, cosmology, architecture, music, and art at large. Jon Graham’s excellent translation couldn’t be more of a treasure trove at this time.”
--Chris H. Hardy, Ph.D., author of The Sacred Network
Whether known as the golden mean, golden section, or phi (Φ), the golden number is a geometric ratio found in living forms throughout nature, often underlying the dimensions of objects considered especially beautiful. An incommensurable ratio best simplified as 1.618 and easily derived from the numbers of the Fibonacci sequence, the golden section represents the unique proportional division of a line segment in which the ratio of the larger part to the smaller part is the same as the ratio of the whole to the larger part. It appears in the proportions of the human face and body as well as in the proportions of animals, plants, and the solar system.
Called the divine proportion by the monk Luca Pacioli, whose book on the subject was illustrated by Leonardo da Vinci, phi’s importance in art and architecture goes back at least to the mystical mathematics of Pythagoras and his followers in the sixth century BCE. The perfect
synthesis of spiritual and material, phi can be found in the designs of the sacred temples of Egypt, ancient Greece, and Rome as well as in medieval Gothic cathedrals and the art and architecture of Renaissance Europe.
Appearing in English for the first time, Matila Ghyka’s classic treatise on the golden number reveals how phi governs not only the organic forms of nature--such as in the spirals of nautilus shells or the number of petals on a flower--but also the design and proportions of the most beautiful and highest creations of humanity. The book traces how the metaphysical view of number and life formulated by Pythagoras and his followers, and taken up by Plato, played a vitalizing role in the development of Christianity, Alexandrian Gnosticism, Kabbalah, and Hermeticism. One of the most important concepts of sacred geometry, the golden number’s mysteries were passed down in an unbroken line of transmission from the Pythagorean brotherhoods through the medieval builders’ guilds to the secret societies of eighteenth-century Europe. Ghyka shows how the secrets of the divine proportion were sought not merely for their value in architecture, painting, and music but also as a portal to a deeper understanding of the spiritual nature of beauty and the hidden harmonies that connect the whole of creation.
PRINCE MATILA COSTIESCO GHYKA (1881-1965) was a Romanian mathematician, historian, philosopher, and diplomat, who served as the plenipotentiary minister in the United Kingdom during the late 1930s. He was also a visiting professor of aesthetics at the University of Southern California and at the Mary Washington College in Virginia. His previous books in English include The Geometry of Art and Life and an autobiography, The World Mine Oyster. Though his prolific literary output includes fiction, poetry, and philosophy, the overarching concern of his work was a synthesis of higher mathematics and the arts
“Finally ... a complete translation of Matila Ghyka’s masterwork. This foundational book is essential reading for anyone interested in the golden section, harmony, proportion, and beauty in nature, art, and architecture.”
--David Fideler, author of Restoring the Soul of the World
“Matila Ghyka’s The Golden Number is the most comprehensive and convincing demonstration that the golden ratio is indeed, as Pythagoras had posed it, the root number of the universe, expressed both in the living plants and animals and in matter forms at all scales--from galaxies, to crystals, to quantum waves--thus ever-present in mathematics, cosmology, architecture, music, and art at large. Jon Graham’s excellent translation couldn’t be more of a treasure trove at this time.”
--Chris H. Hardy, Ph.D., author of The Sacred Network
Whether known as the golden mean, golden section, or phi (Φ), the golden number is a geometric ratio found in living forms throughout nature, often underlying the dimensions of objects considered especially beautiful. An incommensurable ratio best simplified as 1.618 and easily derived from the numbers of the Fibonacci sequence, the golden section represents the unique proportional division of a line segment in which the ratio of the larger part to the smaller part is the same as the ratio of the whole to the larger part. It appears in the proportions of the human face and body as well as in the proportions of animals, plants, and the solar system.
Called the divine proportion by the monk Luca Pacioli, whose book on the subject was illustrated by Leonardo da Vinci, phi’s importance in art and architecture goes back at least to the mystical mathematics of Pythagoras and his followers in the sixth century BCE. The perfect
synthesis of spiritual and material, phi can be found in the designs of the sacred temples of Egypt, ancient Greece, and Rome as well as in medieval Gothic cathedrals and the art and architecture of Renaissance Europe.
Appearing in English for the first time, Matila Ghyka’s classic treatise on the golden number reveals how phi governs not only the organic forms of nature--such as in the spirals of nautilus shells or the number of petals on a flower--but also the design and proportions of the most beautiful and highest creations of humanity. The book traces how the metaphysical view of number and life formulated by Pythagoras and his followers, and taken up by Plato, played a vitalizing role in the development of Christianity, Alexandrian Gnosticism, Kabbalah, and Hermeticism. One of the most important concepts of sacred geometry, the golden number’s mysteries were passed down in an unbroken line of transmission from the Pythagorean brotherhoods through the medieval builders’ guilds to the secret societies of eighteenth-century Europe. Ghyka shows how the secrets of the divine proportion were sought not merely for their value in architecture, painting, and music but also as a portal to a deeper understanding of the spiritual nature of beauty and the hidden harmonies that connect the whole of creation.
PRINCE MATILA COSTIESCO GHYKA (1881-1965) was a Romanian mathematician, historian, philosopher, and diplomat, who served as the plenipotentiary minister in the United Kingdom during the late 1930s. He was also a visiting professor of aesthetics at the University of Southern California and at the Mary Washington College in Virginia. His previous books in English include The Geometry of Art and Life and an autobiography, The World Mine Oyster. Though his prolific literary output includes fiction, poetry, and philosophy, the overarching concern of his work was a synthesis of higher mathematics and the arts
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